Summary: Corals native to highly variable habitats demonstrate greater thermal tolerance than corals from less variable habitats after 36 days of acclimation to thermally stable or variable common garden treatments.

Summary: Experimental manipulations in male house finches indicate that elevated temperature has no direct effect on the timing of reproductive preparations, but does influence the transition from breeding to molt.

Summary: Human-induced changes in temperature, chemical discharge, eutrophication of water and the associated depletion of oxygen may disrupt the integration between circadian rhythms and other functions in animals. This possibility should be considered more thoroughly in studies addressing the environmental responses of animals.

Summary: Physiological responses associated with stable temperatures are distinct from those in thermally variable environments and we need to understand these differences to truly predict how animals will respond to climate change.

Summary: Immune investment shapes energy budgeting and survival upon infection in overwintering ectotherms, but can we predict how changing winters will modify immunity and its role in winter survival?